Tube - Unidirectional (cello wrapped) - Bicycle - Seat Stay - 0.46 x 0.556 x 65 Inch - Globally Sourced
Unidirectional Carbon Fiber Tube ◾ Great for Bending & Compression
- 1-5 $63.99
- 6-24 $54.79
- 25-49 $47.59
- 50+ $44.39
Features & Benefits
Roll wrapped tubing is manufactured using multiple layers of prepreg carbon fiber (and if noted, other) materials. In general each layer is about 0.006 inches thick which means that a tube with a wall thickness of 0.060 inches will typically be composed of 9-10 individual layers of carbon fiber. The number of layers (plys) allows us to vary the orientation of the fibers throughout the thickness, creating a high performance, engineered product. Click HERE to learn more about our roll wrapping process.
*Please note, the diagram below shows an outer "0/90" ply however the product you are currently viewing does NOT have this outer twill ply.
*This diagram illustrates a "generic" layup. The SKU being viewed may not have the layup schedule shown in this diagram. To view this SKU's particular layup please check out the "LAYUP ORIENTATION" tab.
Additional Information
P/N | 45240-DL |
---|---|
Space Flight Ready | No |
Traceability Included | No |
Inside Dimension | 0.460000 |
Outside Dimension | 0.556000 |
Frame Segment | Seatstay |
Application | Bicycle |
OD | 0.556000 |
Wall | 0.048000 |
Length | 65 |
Tensile Modulus (Stiffness), msi | 17.520000 |
Max Operating Temp (Tg) | 238.000000 |
WT. | 0.000000 |
Materials | Standard Modulus Carbon |
HTS - Harmonized Tariff Code | 6815.13.0000 |
Surface Finish (exterior) | Cello Wrap Gloss |
Technical Data
We cannot supply any test data for this tube at this time, data may come available in the future
Layup Orientation
SKU : 45240-DL Rev B |
||
Ply # | Orientation | Location |
1 | 0 | Inside |
2 | 0 | ↓ |
3 | 30 | |
4 | -30 | |
5 | 0 | |
6 | 0 | |
7 | 0 | Outside |
- 0° Fibers maximize bending stiffness. Consider bending the tube over your knee.
- 45° Fibers maximize torsional stiffness. Typically plied together in an opposing manner, i.e. ±45°. Consider twisting the tube like a vehicle's driveshaft.
- 90° Fibers maximize crushing stiffness and generally assist in overall tube strength. Consider laying the tube on the ground and stepping on it.